San Marino Scale
The San Marino Scale is a suggested scale for assessing risks associated with deliberate transmissions from Earth aimed to possible extraterrestrial intelligent life. The scale evaluates the significance of transmissions from Earth as a function of signal intensity and information content. The scale was suggested by Iván Almár at a conference in San Marino in 2005.[1][2][3] The radio output of Jupiter, Saturn and Neptune is not considered in the model. The San Marino Scale was subsequently adopted by the SETI Permanent Study Group of the International Academy of Astronautics at its 2007 meeting in Hyderabad, India.
Calculation
[edit]In the original presentation given by Almár, the San Marino Index, SMI, of a given event is calculated as the sum of two terms.
The first term, I, is based on the intensity of the signal relative to the background noise in the same frequency band. This term is logarithmic, and calculated as:
For example, a signal which is 100 times more intense than the background noise at the same frequency and bandwidth would have an I value of two.
The second term, C, is more subjective and relates to the content, aiming, timing, and character of the signal.[3] A C rating of one is something like a stray radar pulse, lacking any information content and randomly directed. A C rating of five is a deliberate reply to an extraterrestrial signal.
Value | Potential Hazard |
---|---|
10 | Extraordinary |
9 | Outstanding |
8 | Far-reaching |
7 | High |
6 | Noteworthy |
5 | Intermediate |
4 | Moderate |
3 | Minor |
2 | Low |
1 | Insignificant |
References
[edit]- ^ a b "The San Marino Scale". IAA SETI Permanent Study Group.
- ^ Hecht, Jeff; Paulshuch, H (24 October 2006). "The San Marino Scale: A new analytical tool for assessing transmission risk". Acta Astronautica. 60 (1): 57–59. Bibcode:2007AcAau..60...57A. doi:10.1016/j.actaastro.2006.04.012.
- Jeff Hecht (24 October 2006). "What are the chances of aliens sniffing us out?". New Scientist.
- ^ a b Almár, Iván (11 March 2005). "Quantifying Consequences Through Scales" (PDF). Retrieved 1 May 2018.